CN212613811U - Assembling device for steel bar truss floor bearing plate - Google Patents

Abstract

The utility model relates to an assembly quality of steel bar truss building carrier plate, it includes the frame and sets up fastener installation mechanism, truss die block board rack and truss extrusion mechanism in the frame, fastener installation mechanism is located truss die block board rack below, truss extrusion mechanism is located one side of truss die block board rack. The utility model discloses a mode of local extrusion force is exerted to steel bar truss upper chord reinforcing bar, avoids steel bar truss to receive the not good condition of resilience after the extrusion, has improved the stability of being connected of steel bar truss and fastener.

Description

Assembling device for steel bar truss floor bearing plate

Technical Field

The utility model relates to a building material production field, concretely relates to assembly quality of steel bar truss building carrier plate.

Background

The steel bar truss floor bearing plate is a combined template which is formed by processing steel bars in a floor slab into steel bar trusses in a factory and connecting the steel bar trusses and a bottom template into a whole. The steel bar truss comprises upper chord steel bars, upper chord steel bars and web members for connecting the upper chord steel bars and the upper chord steel bars.

At present, when a steel bar truss floor support plate is machined, two upper chord steel bars of a steel bar truss are generally extruded by assembly equipment through external force, a fastener is clamped into the upper chord steel bars, then the external force is released, the fastener and the upper chord steel bars are clamped tightly by virtue of restoring force of the steel bar truss, and finally the fastener and a bottom template are locked, so that the steel bar truss floor support plate is machined. However, because of the need extrude two down string reinforcing bars simultaneously to reduce the distance between the two down string reinforcing bars, in order to assemble the fastener smoothly, the distance of string reinforcing bar under the extrusion generally need be by a wide margin, and such a way can make down string reinforcing bar recover not in place, thereby lead to the chucking degree of down string reinforcing bar and card straining not enough, lead to the unable stable fixing of steel bar truss on the template, this normal use that will influence steel bar truss building carrier plate.

SUMMERY OF THE UTILITY MODEL

Problem to prior art existence, the utility model aims to provide a novel steel bar truss building carrier plate assembly device, it can improve the stability of being connected of steel bar truss and fastener.

In order to achieve the above object, the utility model adopts the following technical scheme:

the assembling device for the steel bar truss floor bearing plate comprises a rack, and a fastener mounting mechanism, a truss bottom template placing frame and a truss extrusion mechanism which are arranged on the rack, wherein the fastener mounting mechanism is positioned below the truss bottom template placing frame, and the truss extrusion mechanism is positioned on one side of the truss bottom template placing frame;

the fastener mounting mechanism comprises a fastener placing frame arranged on the rack and a fastener pushing piece arranged below the fastener placing frame, and a plurality of placing positions for placing fasteners are arranged on the fastener placing frame;

the truss bottom template placing frame comprises at least one first limiting plate and a second limiting plate corresponding to the first limiting plate, the upper ends of the first limiting plate and the second limiting plate are used for supporting the bottom template, and a truss placing space for placing a steel bar truss is formed between the first limiting plate and the corresponding second limiting plate; the first limiting plate is provided with a clamping hook used for clamping a first upper chord steel bar of the steel bar truss, the second limiting plate is provided with a supporting platform used for supporting a second upper chord steel bar of the steel bar truss, and the supporting platform and the clamping hook are positioned in the truss placing space; the truss extrusion mechanism is used for extruding the second upper chord steel bar of the steel bar truss.

The upper end of the fastener pushing piece is connected with the fastener placing frame and used for driving the fastener placing frame to move up and down.

The upper end of the fastener pushing piece is movably arranged in the placing position in an extending mode.

Every on the fastener rack is placed and is equipped with two fastener top pushing parts on the position, and it is located the both ends of placing the position respectively, corresponds with two joint ends of fastener.

The fastener rack is connected with a rack driving piece for pushing the fastener rack to slide.

Fastener rack one end is connected with a slide bar, and this slide bar connection rack driving piece, be equipped with the slide rail with slide bar complex in the frame.

The truss extrusion mechanism comprises a driving piece, a movable rod and an extrusion block, and the driving piece is positioned at one end of the truss bottom template placing frame; the movable rod is connected with the driving piece and is positioned on one side of the second limiting plate, and the movable rod is provided with a rolling wheel; the extrusion block is movably arranged in the second limiting plate in a penetrating mode, and an inclined plane matched with the rolling wheel is arranged on the extrusion block.

Still be equipped with the bullet preforming on the first limiting plate, the position that sets up of bullet preforming corresponds with the position of placing of fastener rack.

The driving piece comprises a motor, a driving wheel, a linkage rod and a linkage plate, the driving wheel is connected with a driving shaft of the motor, one end of the linkage rod is fixed on the driving wheel, and the fixed position of the linkage rod is close to the edge of the driving wheel; the other end of the linkage rod is fixed on the linkage plate; the linkage plate is connected with the movable rod.

The truss extrusion mechanism comprises more than one first driving piece and corresponding first extrusion blocks, and the first driving pieces and the first extrusion blocks are arranged on the second limiting plate; the first extrusion block is provided with a fixed end, a hinged end and an extrusion end, the fixed end is connected with the driving piece, the hinged end is hinged to the second limiting plate and located in the truss placing space, and the extrusion end is located outside the truss placing space in a normal state.

The truss extrusion mechanism further comprises more than one second driving piece and corresponding second extrusion blocks, the second driving pieces and the second extrusion blocks are arranged on the first limiting plate, and the structure of the second driving pieces is the same as that of the first driving pieces and the first extrusion blocks.

The first driving piece is an air cylinder.

The assembling device also comprises a bottom template limiting mechanism, and the bottom template limiting mechanism is arranged on the rack and is positioned above the truss bottom template placing frame; the bottom template limiting mechanism comprises a limiting seat and a limiting block, the limiting seat is fixed on the rack, and the limiting block is rotatably arranged on the rack.

The assembling device further comprises a material taking mechanism, the material taking mechanism is fixed on the rack and located below the truss bottom template placing frame, the material taking mechanism comprises a material taking cylinder and a pushing block, the material taking cylinder is fixed on the rack, and the pushing block is fixed on a piston rod of the material taking cylinder and movably extends to the position above the truss bottom template placing frame.

After the scheme is adopted, when the steel bar truss is connected with the fastener, the extrusion force is only applied to the lower chord steel bar on one side, so that the extrusion distance of the lower chord steel bar is reduced, the fastener can be installed under the condition that the lower chord steel bar of the steel bar truss is not required to be compressed by a large distance, the condition that the rebound effect of the steel bar truss is not good after the steel bar truss is extruded is avoided, the stability of the connection of the steel bar truss and the fastener is improved, and the normal use of the steel bar truss floor bearing plate is further ensured.

Furthermore, the utility model discloses when exerting the extrusion force to steel bar truss's second upper chord reinforcing bar, adopt single-point extrusion's mode to extrude steel bar truss in proper order, improved the resilience after steel bar truss receives the extrusion greatly, further improved the steadiness that steel bar truss is connected with the fastener.

Drawings

Fig. 1 is a front isometric view of an assembly device according to an embodiment of the invention;

FIG. 2 is a rear isometric view of an assembly device according to an embodiment of the present invention;

fig. 3 is a partial schematic view of an embodiment of the present invention;

fig. 4 is a schematic view of a partial structure of the embodiment of the present invention (fastener mounting mechanism and bottom die plate limiting mechanism);

fig. 5 is a schematic view of a partial structure of an embodiment of the present invention (a material taking mechanism);

figure 6 is an isometric view of an assembly device according to an embodiment of the present invention;

FIG. 7 is a rear isometric view of an assembly device according to a second embodiment of the present invention;

FIG. 8 is a top view of an assembly device according to a second embodiment of the present invention;

fig. 9 is a schematic view of a partial structure of a second embodiment of the present invention (truss extrusion mechanism).

Detailed Description

The utility model discloses an assembly quality of steel bar truss building carrier plate, its mode through applying local extrusion force to steel bar truss 700 upper chord reinforcing bar for operating personnel can be better the accuse extrusion force, avoid steel bar truss 700 to receive the not good condition of resilience performance after the extrusion, improved steel bar truss 700 and fastener 800 be connected the steadiness.

Example one

As shown in fig. 1 to 5, the present embodiment provides an assembling apparatus for a steel bar truss floor deck, which includes a rack 100, and a fastener installation mechanism 200, a truss shoe plate placing rack 300, and a truss extrusion mechanism 400, which are disposed on the rack 100, wherein the fastener installation mechanism 200 is located below the truss shoe plate placing rack 300, and the truss extrusion mechanism 400 is located at one side of the truss shoe plate placing rack 300.

The fastener mounting mechanism 200 comprises a fastener placing frame 210 arranged on the rack 100 and a fastener pushing piece 220 arranged below the fastener placing frame 210, wherein a plurality of placing positions for placing fasteners 800 are arranged on the fastener placing frame 210; the upper end of the fastener pushing piece 220 is movably arranged in the placing position in an extending mode.

In this embodiment, the fastener pushing member 220 is a fastener pushing cylinder, and a piston rod of the fastener pushing cylinder is movably disposed in the placement position of the fastener placing frame 210. The fastener rack 210 is slidably disposed on the frame 100. Specifically, the fastener placing frame 210 is slidably disposed on the frame 100 through a sliding cylinder 230, one end of the fastener placing frame 210 is connected to a sliding rod 240, the sliding rod 240 is connected to a piston rod of the sliding cylinder 230, and the frame 100 is provided with a sliding rail 250 engaged with the sliding rod 240.

The truss bottom formwork placing frame 300 comprises a first limiting plate 310 and a second limiting plate 320, the upper ends of the first limiting plate 310 and the second limiting plate 320 are used for supporting the bottom formwork, and a truss placing space for placing the steel bar truss 700 is formed between the first limiting plate 310 and the second limiting plate 320; the second limiting plate 320 is provided with a support platform 321 for supporting the second upper chord steel bar 722 of the steel bar truss 700, the first limiting plate 310 is provided with a hook 311 for clamping the first upper chord steel bar 721 of the steel bar truss 700, and the support platform 321 and the hook 311 are located in the truss placing space.

The first limiting plate 310 is further provided with an elastic sheet 312, and the setting position of the elastic sheet 312 corresponds to the placing position of the fastener placing frame 210.

In order to fix the bottom template and thus ensure the stability of the connection between the bottom template and the fastener 800, the assembling device further comprises a bottom template positioning mechanism 500, wherein the bottom template positioning mechanism 500 is arranged on the rack 100 and is positioned above the truss bottom template placing frame 300; the bottom form positioning mechanism 500 comprises a limiting seat 510 and a limiting block 520, the limiting seat 510 is fixed on the rack 100, and the limiting block 520 is rotatably arranged on the rack 100.

The truss extrusion mechanism 400 comprises a driving member 410, a driving member 420 and an extrusion block 430, wherein the driving member 410 is positioned at one end of the truss bottom template placing frame 300; the extrusion block 430 is connected with the driving element 410 and is located at one side of the second limiting plate 320, and the driving element 420 is provided with a rolling wheel 421; the extruding block 430 is movably inserted into the second limiting plate 320, and an inclined plane matched with the rolling wheel 421 is arranged on the extruding block 430.

In this embodiment, the driving member 410 includes a motor 411, a driving wheel 412, a linkage rod 413 and a linkage plate 414, the driving wheel 412 is connected to a driving shaft of the motor 411, one end of the linkage rod 413 is fixed on the driving wheel 412, and a fixed position of the linkage rod 413 is close to an edge of the driving wheel 412; the other end of the linkage rod 413 is fixed on the linkage plate 414; the linkage plate 414 is connected to the driving member 420. The driving wheel 412 is provided with an initial station and an extrusion station, and when the driving wheel 412 is positioned at the initial station, the connecting position of the linkage rod 413 and the driving wheel 412 is close to the truss bottom template placing frame 300; and when the truss bottom template placing rack is positioned at an extrusion station, the connecting position of the linkage rod 413 and the driving wheel 412 is far away from the truss bottom template placing rack 300.

In order to take out the assembled steel bar truss floor bearing plate from the assembling device, the assembling device further comprises a material taking mechanism 600, the material taking mechanism 600 is fixed on the rack 100 and located below the truss bottom template placing frame 300, the material taking mechanism 600 comprises a material taking cylinder 610 and a pushing block 620, the material taking cylinder 610 is fixed on the rack 100, and the pushing block 620 is fixed on a piston rod of the material taking cylinder 610 and movably arranged above the truss bottom template placing frame 300 in an extending mode.

The assembling method for the steel bar truss floor bearing plate based on the assembling device specifically comprises the following steps:

place fastener 800 on fastener rack 210: the fastener placing frame 210 can be pulled out of the rack 100 by controlling the sliding cylinder 230, and then the fastener 800 is placed on the placing position on the fastener placing frame 210; in this embodiment, a fastener 800 can engage two upper chord rebar at the same time. Of course, two separate fasteners 800 may be used to engage the two upper chord rebar respectively.

The steel bar truss 700 is placed in the truss placing space of the truss bottom formwork, the first upper chord steel bar 721 of the steel bar truss 700 is clamped in the clamping hook 311 of the first limiting plate 310, and the second upper chord steel bar 722 of the steel bar truss 700 is placed on the supporting platform 321 of the second limiting plate 320.

The first engaging end of the fastener 800 located under the engaging hook 311 is pushed upward out of the fastener placing frame 210 by a fastener pushing cylinder and is engaged with the first upper chord 721 of the steel bar truss 700.

Starting a motor 411 of the driving part 410 to enable the driving wheel 412 to rotate to an extrusion station and keep the extrusion station, wherein in the rotating process of the driving wheel 412, the linkage rod 413 drives the linkage plate 414 to slide; the linkage plate 414 drives the driving member 420 to slide on the bracket, the rolling wheel 421 on the driving member 420 moves along with the driving member 420 to roll on the inclined surface of the extrusion block 430, and the extrusion block 430 swings towards the truss placing space under the action of the rolling wheel 421, so as to extrude the second upper chord steel bar 722 on the supporting platform 321 towards the first upper chord steel bar 721, so that the position of the second upper chord steel bar corresponds to the position of the fastener 800.

The fastener pushing cylinder pushes the second clamping end of the fastener 800 located below the supporting platform 321 upwards out of the fastener placing rack 210, and the fastener placing rack is clamped into the second upper chord steel bar 722.

The motor 411 is controlled to rotate continuously, so that the driving wheel 412 returns to the initial station, the driving wheel 412 drives the driving member 420 to return to the original position through the linkage rod 413 and the linkage plate 414, the rolling wheel 421 returns to the original position, and the extrusion block 430 returns to the original position, so that the extrusion force on the second upper chord steel bar 722 is lost. In the absence of a compressive force, the two upper-chord reinforcements can be well engaged with the fastener 800 by the restoring force of the second upper-chord reinforcement 722 and the elastic force of the elastic sheet 312.

The bottom template is placed above the truss bottom template placing frame 300, and the limiting block 520 is pressed against the top of the bottom template through rotating the limiting block 520, so that the bottom template is limited.

And (3) the bottom template is connected with the fastener 800 in a locking way through bolts, and the assembly of the steel bar truss floor bearing plate is completed.

After the assembly is completed, the bottom template is ejected upwards through the material taking cylinder, so that the steel bar truss floor bearing plate is conveniently detached from the assembly device.

Compare in current assembly quality, this embodiment is when carrying out steel bar truss 700 and fastener 800's being connected, only apply the extrusion force to steel bar truss 700's second upper chord reinforcing bar 722, thereby reduce the extrusion distance of lower chord reinforcing bar, just can install the fastener under the condition of the very big distance of the lower chord reinforcing bar compression of steel bar truss, thereby avoided steel bar truss 700 to receive the not good condition of rebound effect behind the extrusion, improved the steadiness that steel bar truss 700 and fastener 800 are connected, and then guaranteed the normal use of steel bar truss floor carrier plate.

Example two

In order to further ensure that the steel bar truss 700 has better resilience after being extruded, the utility model discloses make a further improvement on the basis of embodiment one, namely the extrusion mode to second upper chord reinforcing bar 722 is changed to single-point extrusion in step 2.

Specifically, as shown in fig. 6 to 9, the present embodiment includes a rack 100, and a fastener installation mechanism 200, a truss bottom template placing frame 300, and a truss extrusion mechanism 400 that are arranged on the rack 100, where the fastener installation mechanism 200 is located below the truss bottom template placing frame 300, and the truss extrusion mechanism 400 is located on one side of the truss bottom template placing frame 300.

The assembly apparatus of this embodiment is also similar to the first embodiment, except that the fastener pushing means and the steel bar truss 700 are extruded, that is, the connection structure of the fastener pushing means 220 and the truss extruding mechanism 400 are different.

Specifically, in this embodiment, the upper end of the fastener pushing member 220 is connected to the fastener placing frame 210, and is used for driving the fastener placing frame 210 to move up and down. That is to say, in the present embodiment, the fastener pushing member 220 pushes the fastener placing rack 210 upwards, so as to push the fastener.

In this embodiment, the truss extrusion mechanism 400 includes more than one first driving element 4101 and corresponding first extrusion block 4301, where the first driving elements 4101 and the first extrusion block 4301 are disposed on the second limiting plate 320; first extrusion piece 4301 is equipped with stiff end, hinged end and extrusion end, the stiff end is connected with the driving piece, the hinged end articulates in second limiting plate 320 to be located truss placing space, under the normality the extrusion end is located outside truss placing space.

In order to ensure the stability during extrusion, the truss extrusion mechanism 400 further includes more than one second driving element 4102 and corresponding second extrusion block 4302, where the second driving element 4102 and the second extrusion block 4302 are disposed on the first limiting plate 310, and the structures of the second driving element 4102 and the first extrusion block 4301 are the same as those of the first driving element 4101 and the first extrusion block 4301, and are not described here again. In the present embodiment, both the first drive element 4101 and the second drive element 4102 employ cylinders.

The assembling method for the steel bar truss floor bearing plate based on the assembling device specifically comprises the following steps:

place the fastener on the fastener rack 210: the fastener placing frame 210 can be pulled out of the rack 100 by controlling the sliding cylinder 230, and then the fastener is placed on the placing position on the fastener placing frame 210.

The steel bar truss 700 is placed in the truss placing space of the truss bottom formwork, the first upper chord steel bar 721 of the steel bar truss 700 is clamped in the clamping hook 311 of the first limiting plate 310, and the second upper chord steel bar 722 of the steel bar truss 700 is placed on the supporting platform 321 of the second limiting plate 320.

Each first driving member 4101 of the steel bar truss 700 and the second driving member 4102 adjacent to the first driving member 4101 are individually activated to squeeze the fastener mounting point of the second upper-chord steel bar 722, and then the fastener adjacent to the squeeze point is engaged with the second upper-chord steel bar 722, and after the engagement of one fastener is completed, the engagement of the next fastener is performed. Specifically, the first driving member 4101 pushes up the fixed end of the first pressing block 4301, and the first pressing block 4301 swings with the hinged end as a fulcrum, so that the pressing end swings toward the truss placing space; at the same time, the second driving member 4102 also pushes the second pressing block 4302 upward, thereby pressing the first upper chord reinforcement 721 to assist in pressing the second upper chord reinforcement 722. The fastener pusher 220 is then actuated to push the fastener holder 210 up so that the fastener engages the first top-chord 721 and second top-chord 722.

The bottom template is placed above the truss bottom template placing frame 300, and then the bottom template is connected with the fastener in a locking mode through the bolts, so that the assembly of the steel bar truss floor bearing plate is completed.

After the assembly is completed, the bottom template is ejected upwards through the material taking cylinder, so that the steel bar truss floor bearing plate is conveniently detached from the assembly device.

Compare in prior art and embodiment one, this embodiment has adopted single-point extrusion's mode to extrude steel bar truss 700 in proper order when carrying out being connected of steel bar truss 700 and fastener for steel bar truss 700 has better ground resilience after receiving the extrusion, thereby with the firm joint of buckle, improved the steadiness that steel bar truss 700 and fastener are connected, and then guaranteed the normal use of steel bar truss 700 floor carrier plate.

The above description is only an embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any slight modifications, equivalent changes and modifications made by the technical spirit of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims (14)

1. The utility model provides an assembly quality of steel bar truss building carrier plate which characterized in that: the truss bottom template clamping device comprises a rack, and a fastener mounting mechanism, a truss bottom template placing frame and a truss extrusion mechanism which are arranged on the rack, wherein the fastener mounting mechanism is positioned below the truss bottom template placing frame, and the truss extrusion mechanism is positioned on one side of the truss bottom template placing frame;

the fastener mounting mechanism comprises a fastener placing frame arranged on the rack and a fastener pushing piece arranged below the fastener placing frame, and a plurality of placing positions for placing fasteners are arranged on the fastener placing frame;

the truss bottom template placing frame comprises at least one first limiting plate and a second limiting plate corresponding to the first limiting plate, the upper ends of the first limiting plate and the second limiting plate are used for supporting the bottom template, and a truss placing space for placing a steel bar truss is formed between the first limiting plate and the corresponding second limiting plate; the first limiting plate is provided with a clamping hook used for clamping a first upper chord steel bar of the steel bar truss, the second limiting plate is provided with a supporting platform used for supporting a second upper chord steel bar of the steel bar truss, and the supporting platform and the clamping hook are positioned in the truss placing space; the truss extrusion mechanism is used for extruding the second upper chord steel bar of the steel bar truss.

2. The assembling device of a steel bar truss floor deck according to claim 1, wherein: the upper end of the fastener pushing piece is connected with the fastener placing frame and used for driving the fastener placing frame to move up and down.

3. The assembling device of a steel bar truss floor deck according to claim 1, wherein: the upper end of the fastener pushing piece is movably arranged in the placing position in an extending mode.

4. The assembling device of a steel bar truss floor deck according to claim 3, wherein: every on the fastener rack is placed and is equipped with two fastener top pushing parts on the position, and it is located the both ends of placing the position respectively, corresponds with two joint ends of fastener.

5. The assembling device of a steel bar truss floor deck according to claim 1, wherein: the fastener rack is connected with a rack driving piece for pushing the fastener rack to slide.

6. The assembling device of a steel bar truss floor deck according to claim 5, wherein: fastener rack one end is connected with a slide bar, and this slide bar connection rack driving piece, be equipped with the slide rail with slide bar complex in the frame.

7. The assembling apparatus of a steel bar truss floor deck according to any one of claims 1 to 4, wherein: the truss extrusion mechanism comprises a driving piece, a movable rod and an extrusion block, and the driving piece is positioned at one end of the truss bottom template placing frame; the movable rod is connected with the driving piece and is positioned on one side of the second limiting plate, and the movable rod is provided with a rolling wheel; the extrusion block is movably arranged in the second limiting plate in a penetrating mode, and an inclined plane matched with the rolling wheel is arranged on the extrusion block.

8. The assembly device of claim 7, wherein the assembly device comprises: still be equipped with the bullet preforming on the first limiting plate, the position that sets up of bullet preforming corresponds with the position of placing of fastener rack.

9. The assembly device of claim 7, wherein the assembly device comprises: the driving piece comprises a motor, a driving wheel, a linkage rod and a linkage plate, the driving wheel is connected with a driving shaft of the motor, one end of the linkage rod is fixed on the driving wheel, and the fixed position of the linkage rod is close to the edge of the driving wheel; the other end of the linkage rod is fixed on the linkage plate; the linkage plate is connected with the movable rod.

10. The assembling apparatus of a steel bar truss floor deck according to any one of claims 1 to 4, wherein: the truss extrusion mechanism comprises more than one first driving piece and corresponding first extrusion blocks, and the first driving pieces and the first extrusion blocks are arranged on the second limiting plate; the first extrusion block is provided with a fixed end, a hinged end and an extrusion end, the fixed end is connected with the driving piece, the hinged end is hinged to the second limiting plate and located in the truss placing space, and the extrusion end is located outside the truss placing space in a normal state.

11. The assembly apparatus of claim 10, wherein: the truss extrusion mechanism further comprises more than one second driving piece and corresponding second extrusion blocks, the second driving pieces and the second extrusion blocks are arranged on the first limiting plate, and the structure of the second driving pieces is the same as that of the first driving pieces and the first extrusion blocks.

12. The assembly apparatus of claim 10, wherein: the first driving piece is an air cylinder.

13. The assembling device of a steel bar truss floor deck according to claim 1, wherein: the assembling device also comprises a bottom template limiting mechanism, and the bottom template limiting mechanism is arranged on the rack and is positioned above the truss bottom template placing frame; the bottom template limiting mechanism comprises a limiting seat and a limiting block, the limiting seat is fixed on the rack, and the limiting block is rotatably arranged on the rack.

14. The assembling device of a steel bar truss floor deck according to claim 1, wherein: the assembling device further comprises a material taking mechanism, the material taking mechanism is fixed on the rack and located below the truss bottom template placing frame, the material taking mechanism comprises a material taking cylinder and a pushing block, the material taking cylinder is fixed on the rack, and the pushing block is fixed on a piston rod of the material taking cylinder and movably extends to the position above the truss bottom template placing frame.

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